Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Harry Wentland | 2494 | 98.31% | 1 | 33.33% |
Yue Hin Lau | 42 | 1.66% | 1 | 33.33% |
Matthias Kaehlcke | 1 | 0.04% | 1 | 33.33% |
Total | 2537 | 3 |
/* * Copyright 2012-15 Advanced Micro Devices, Inc. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE COPYRIGHT HOLDER(S) OR AUTHOR(S) BE LIABLE FOR ANY CLAIM, DAMAGES OR * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR * OTHER DEALINGS IN THE SOFTWARE. * * Authors: AMD * */ #include "dm_services.h" #include "dce110_transform_v.h" #include "basics/conversion.h" /* include DCE11 register header files */ #include "dce/dce_11_0_d.h" #include "dce/dce_11_0_sh_mask.h" #include "dce/dce_11_0_enum.h" enum { OUTPUT_CSC_MATRIX_SIZE = 12 }; /* constrast:0 - 2.0, default 1.0 */ #define UNDERLAY_CONTRAST_DEFAULT 100 #define UNDERLAY_CONTRAST_MAX 200 #define UNDERLAY_CONTRAST_MIN 0 #define UNDERLAY_CONTRAST_STEP 1 #define UNDERLAY_CONTRAST_DIVIDER 100 /* Saturation: 0 - 2.0; default 1.0 */ #define UNDERLAY_SATURATION_DEFAULT 100 /*1.00*/ #define UNDERLAY_SATURATION_MIN 0 #define UNDERLAY_SATURATION_MAX 200 /* 2.00 */ #define UNDERLAY_SATURATION_STEP 1 /* 0.01 */ /*actual max overlay saturation * value = UNDERLAY_SATURATION_MAX /UNDERLAY_SATURATION_DIVIDER */ /* Hue */ #define UNDERLAY_HUE_DEFAULT 0 #define UNDERLAY_HUE_MIN -300 #define UNDERLAY_HUE_MAX 300 #define UNDERLAY_HUE_STEP 5 #define UNDERLAY_HUE_DIVIDER 10 /* HW range: -30 ~ +30 */ #define UNDERLAY_SATURATION_DIVIDER 100 /* Brightness: in DAL usually -.25 ~ .25. * In MMD is -100 to +100 in 16-235 range; which when scaled to full range is * ~-116 to +116. When normalized this is about 0.4566. * With 100 divider this becomes 46, but we may use another for better precision * The ideal one is 100/219 ((100/255)*(255/219)), * i.e. min/max = +-100, divider = 219 * default 0.0 */ #define UNDERLAY_BRIGHTNESS_DEFAULT 0 #define UNDERLAY_BRIGHTNESS_MIN -46 /* ~116/255 */ #define UNDERLAY_BRIGHTNESS_MAX 46 #define UNDERLAY_BRIGHTNESS_STEP 1 /* .01 */ #define UNDERLAY_BRIGHTNESS_DIVIDER 100 static const struct out_csc_color_matrix global_color_matrix[] = { { COLOR_SPACE_SRGB, { 0x2000, 0, 0, 0, 0, 0x2000, 0, 0, 0, 0, 0x2000, 0} }, { COLOR_SPACE_SRGB_LIMITED, { 0x1B60, 0, 0, 0x200, 0, 0x1B60, 0, 0x200, 0, 0, 0x1B60, 0x200} }, { COLOR_SPACE_YCBCR601, { 0xE00, 0xF447, 0xFDB9, 0x1000, 0x82F, 0x1012, 0x31F, 0x200, 0xFB47, 0xF6B9, 0xE00, 0x1000} }, { COLOR_SPACE_YCBCR709, { 0xE00, 0xF349, 0xFEB7, 0x1000, 0x5D2, 0x1394, 0x1FA, 0x200, 0xFCCB, 0xF535, 0xE00, 0x1000} }, /* TODO: correct values below */ { COLOR_SPACE_YCBCR601_LIMITED, { 0xE00, 0xF447, 0xFDB9, 0x1000, 0x991, 0x12C9, 0x3A6, 0x200, 0xFB47, 0xF6B9, 0xE00, 0x1000} }, { COLOR_SPACE_YCBCR709_LIMITED, { 0xE00, 0xF349, 0xFEB7, 0x1000, 0x6CE, 0x16E3, 0x24F, 0x200, 0xFCCB, 0xF535, 0xE00, 0x1000} } }; enum csc_color_mode { /* 00 - BITS2:0 Bypass */ CSC_COLOR_MODE_GRAPHICS_BYPASS, /* 01 - hard coded coefficient TV RGB */ CSC_COLOR_MODE_GRAPHICS_PREDEFINED, /* 04 - programmable OUTPUT CSC coefficient */ CSC_COLOR_MODE_GRAPHICS_OUTPUT_CSC, }; enum grph_color_adjust_option { GRPH_COLOR_MATRIX_HW_DEFAULT = 1, GRPH_COLOR_MATRIX_SW }; static void program_color_matrix_v( struct dce_transform *xfm_dce, const struct out_csc_color_matrix *tbl_entry, enum grph_color_adjust_option options) { struct dc_context *ctx = xfm_dce->base.ctx; uint32_t cntl_value = dm_read_reg(ctx, mmCOL_MAN_OUTPUT_CSC_CONTROL); bool use_set_a = (get_reg_field_value(cntl_value, COL_MAN_OUTPUT_CSC_CONTROL, OUTPUT_CSC_MODE) != 4); set_reg_field_value( cntl_value, 0, COL_MAN_OUTPUT_CSC_CONTROL, OUTPUT_CSC_MODE); if (use_set_a) { { uint32_t value = 0; uint32_t addr = mmOUTPUT_CSC_C11_C12_A; /* fixed S2.13 format */ set_reg_field_value( value, tbl_entry->regval[0], OUTPUT_CSC_C11_C12_A, OUTPUT_CSC_C11_A); set_reg_field_value( value, tbl_entry->regval[1], OUTPUT_CSC_C11_C12_A, OUTPUT_CSC_C12_A); dm_write_reg(ctx, addr, value); } { uint32_t value = 0; uint32_t addr = mmOUTPUT_CSC_C13_C14_A; /* fixed S2.13 format */ set_reg_field_value( value, tbl_entry->regval[2], OUTPUT_CSC_C13_C14_A, OUTPUT_CSC_C13_A); /* fixed S0.13 format */ set_reg_field_value( value, tbl_entry->regval[3], OUTPUT_CSC_C13_C14_A, OUTPUT_CSC_C14_A); dm_write_reg(ctx, addr, value); } { uint32_t value = 0; uint32_t addr = mmOUTPUT_CSC_C21_C22_A; /* fixed S2.13 format */ set_reg_field_value( value, tbl_entry->regval[4], OUTPUT_CSC_C21_C22_A, OUTPUT_CSC_C21_A); /* fixed S2.13 format */ set_reg_field_value( value, tbl_entry->regval[5], OUTPUT_CSC_C21_C22_A, OUTPUT_CSC_C22_A); dm_write_reg(ctx, addr, value); } { uint32_t value = 0; uint32_t addr = mmOUTPUT_CSC_C23_C24_A; /* fixed S2.13 format */ set_reg_field_value( value, tbl_entry->regval[6], OUTPUT_CSC_C23_C24_A, OUTPUT_CSC_C23_A); /* fixed S0.13 format */ set_reg_field_value( value, tbl_entry->regval[7], OUTPUT_CSC_C23_C24_A, OUTPUT_CSC_C24_A); dm_write_reg(ctx, addr, value); } { uint32_t value = 0; uint32_t addr = mmOUTPUT_CSC_C31_C32_A; /* fixed S2.13 format */ set_reg_field_value( value, tbl_entry->regval[8], OUTPUT_CSC_C31_C32_A, OUTPUT_CSC_C31_A); /* fixed S0.13 format */ set_reg_field_value( value, tbl_entry->regval[9], OUTPUT_CSC_C31_C32_A, OUTPUT_CSC_C32_A); dm_write_reg(ctx, addr, value); } { uint32_t value = 0; uint32_t addr = mmOUTPUT_CSC_C33_C34_A; /* fixed S2.13 format */ set_reg_field_value( value, tbl_entry->regval[10], OUTPUT_CSC_C33_C34_A, OUTPUT_CSC_C33_A); /* fixed S0.13 format */ set_reg_field_value( value, tbl_entry->regval[11], OUTPUT_CSC_C33_C34_A, OUTPUT_CSC_C34_A); dm_write_reg(ctx, addr, value); } set_reg_field_value( cntl_value, 4, COL_MAN_OUTPUT_CSC_CONTROL, OUTPUT_CSC_MODE); } else { { uint32_t value = 0; uint32_t addr = mmOUTPUT_CSC_C11_C12_B; /* fixed S2.13 format */ set_reg_field_value( value, tbl_entry->regval[0], OUTPUT_CSC_C11_C12_B, OUTPUT_CSC_C11_B); set_reg_field_value( value, tbl_entry->regval[1], OUTPUT_CSC_C11_C12_B, OUTPUT_CSC_C12_B); dm_write_reg(ctx, addr, value); } { uint32_t value = 0; uint32_t addr = mmOUTPUT_CSC_C13_C14_B; /* fixed S2.13 format */ set_reg_field_value( value, tbl_entry->regval[2], OUTPUT_CSC_C13_C14_B, OUTPUT_CSC_C13_B); /* fixed S0.13 format */ set_reg_field_value( value, tbl_entry->regval[3], OUTPUT_CSC_C13_C14_B, OUTPUT_CSC_C14_B); dm_write_reg(ctx, addr, value); } { uint32_t value = 0; uint32_t addr = mmOUTPUT_CSC_C21_C22_B; /* fixed S2.13 format */ set_reg_field_value( value, tbl_entry->regval[4], OUTPUT_CSC_C21_C22_B, OUTPUT_CSC_C21_B); /* fixed S2.13 format */ set_reg_field_value( value, tbl_entry->regval[5], OUTPUT_CSC_C21_C22_B, OUTPUT_CSC_C22_B); dm_write_reg(ctx, addr, value); } { uint32_t value = 0; uint32_t addr = mmOUTPUT_CSC_C23_C24_B; /* fixed S2.13 format */ set_reg_field_value( value, tbl_entry->regval[6], OUTPUT_CSC_C23_C24_B, OUTPUT_CSC_C23_B); /* fixed S0.13 format */ set_reg_field_value( value, tbl_entry->regval[7], OUTPUT_CSC_C23_C24_B, OUTPUT_CSC_C24_B); dm_write_reg(ctx, addr, value); } { uint32_t value = 0; uint32_t addr = mmOUTPUT_CSC_C31_C32_B; /* fixed S2.13 format */ set_reg_field_value( value, tbl_entry->regval[8], OUTPUT_CSC_C31_C32_B, OUTPUT_CSC_C31_B); /* fixed S0.13 format */ set_reg_field_value( value, tbl_entry->regval[9], OUTPUT_CSC_C31_C32_B, OUTPUT_CSC_C32_B); dm_write_reg(ctx, addr, value); } { uint32_t value = 0; uint32_t addr = mmOUTPUT_CSC_C33_C34_B; /* fixed S2.13 format */ set_reg_field_value( value, tbl_entry->regval[10], OUTPUT_CSC_C33_C34_B, OUTPUT_CSC_C33_B); /* fixed S0.13 format */ set_reg_field_value( value, tbl_entry->regval[11], OUTPUT_CSC_C33_C34_B, OUTPUT_CSC_C34_B); dm_write_reg(ctx, addr, value); } set_reg_field_value( cntl_value, 5, COL_MAN_OUTPUT_CSC_CONTROL, OUTPUT_CSC_MODE); } dm_write_reg(ctx, mmCOL_MAN_OUTPUT_CSC_CONTROL, cntl_value); } static bool configure_graphics_mode_v( struct dce_transform *xfm_dce, enum csc_color_mode config, enum graphics_csc_adjust_type csc_adjust_type, enum dc_color_space color_space) { struct dc_context *ctx = xfm_dce->base.ctx; uint32_t addr = mmCOL_MAN_OUTPUT_CSC_CONTROL; uint32_t value = dm_read_reg(ctx, addr); set_reg_field_value( value, 0, COL_MAN_OUTPUT_CSC_CONTROL, OUTPUT_CSC_MODE); if (csc_adjust_type == GRAPHICS_CSC_ADJUST_TYPE_SW) { if (config == CSC_COLOR_MODE_GRAPHICS_OUTPUT_CSC) return true; switch (color_space) { case COLOR_SPACE_SRGB: /* by pass */ set_reg_field_value( value, 0, COL_MAN_OUTPUT_CSC_CONTROL, OUTPUT_CSC_MODE); break; case COLOR_SPACE_SRGB_LIMITED: /* not supported for underlay on CZ */ return false; case COLOR_SPACE_YCBCR601_LIMITED: /* YCbCr601 */ set_reg_field_value( value, 2, COL_MAN_OUTPUT_CSC_CONTROL, OUTPUT_CSC_MODE); break; case COLOR_SPACE_YCBCR709: case COLOR_SPACE_YCBCR709_LIMITED: /* YCbCr709 */ set_reg_field_value( value, 3, COL_MAN_OUTPUT_CSC_CONTROL, OUTPUT_CSC_MODE); break; default: return false; } } else if (csc_adjust_type == GRAPHICS_CSC_ADJUST_TYPE_HW) { switch (color_space) { case COLOR_SPACE_SRGB: /* by pass */ set_reg_field_value( value, 0, COL_MAN_OUTPUT_CSC_CONTROL, OUTPUT_CSC_MODE); break; case COLOR_SPACE_SRGB_LIMITED: /* not supported for underlay on CZ */ return false; case COLOR_SPACE_YCBCR601: case COLOR_SPACE_YCBCR601_LIMITED: /* YCbCr601 */ set_reg_field_value( value, 2, COL_MAN_OUTPUT_CSC_CONTROL, OUTPUT_CSC_MODE); break; case COLOR_SPACE_YCBCR709: case COLOR_SPACE_YCBCR709_LIMITED: /* YCbCr709 */ set_reg_field_value( value, 3, COL_MAN_OUTPUT_CSC_CONTROL, OUTPUT_CSC_MODE); break; default: return false; } } else /* by pass */ set_reg_field_value( value, 0, COL_MAN_OUTPUT_CSC_CONTROL, OUTPUT_CSC_MODE); addr = mmCOL_MAN_OUTPUT_CSC_CONTROL; dm_write_reg(ctx, addr, value); return true; } /*TODO: color depth is not correct when this is called*/ static void set_Denormalization(struct transform *xfm, enum dc_color_depth color_depth) { uint32_t value = dm_read_reg(xfm->ctx, mmDENORM_CLAMP_CONTROL); switch (color_depth) { case COLOR_DEPTH_888: /* 255/256 for 8 bit output color depth */ set_reg_field_value( value, 1, DENORM_CLAMP_CONTROL, DENORM_MODE); break; case COLOR_DEPTH_101010: /* 1023/1024 for 10 bit output color depth */ set_reg_field_value( value, 2, DENORM_CLAMP_CONTROL, DENORM_MODE); break; case COLOR_DEPTH_121212: /* 4095/4096 for 12 bit output color depth */ set_reg_field_value( value, 3, DENORM_CLAMP_CONTROL, DENORM_MODE); break; default: /* not valid case */ break; } set_reg_field_value( value, 1, DENORM_CLAMP_CONTROL, DENORM_10BIT_OUT); dm_write_reg(xfm->ctx, mmDENORM_CLAMP_CONTROL, value); } struct input_csc_matrix { enum dc_color_space color_space; uint32_t regval[12]; }; static const struct input_csc_matrix input_csc_matrix[] = { {COLOR_SPACE_SRGB, /*1_1 1_2 1_3 1_4 2_1 2_2 2_3 2_4 3_1 3_2 3_3 3_4 */ {0x2000, 0, 0, 0, 0, 0x2000, 0, 0, 0, 0, 0x2000, 0} }, {COLOR_SPACE_SRGB_LIMITED, {0x2000, 0, 0, 0, 0, 0x2000, 0, 0, 0, 0, 0x2000, 0} }, {COLOR_SPACE_YCBCR601, {0x2cdd, 0x2000, 0x0, 0xe991, 0xe926, 0x2000, 0xf4fd, 0x10ef, 0x0, 0x2000, 0x38b4, 0xe3a6} }, {COLOR_SPACE_YCBCR601_LIMITED, {0x3353, 0x2568, 0x0, 0xe400, 0xe5dc, 0x2568, 0xf367, 0x1108, 0x0, 0x2568, 0x40de, 0xdd3a} }, {COLOR_SPACE_YCBCR709, {0x3265, 0x2000, 0, 0xe6ce, 0xf105, 0x2000, 0xfa01, 0xa7d, 0, 0x2000, 0x3b61, 0xe24f} }, {COLOR_SPACE_YCBCR709_LIMITED, {0x39a6, 0x2568, 0, 0xe0d6, 0xeedd, 0x2568, 0xf925, 0x9a8, 0, 0x2568, 0x43ee, 0xdbb2} } }; static void program_input_csc( struct transform *xfm, enum dc_color_space color_space) { int arr_size = sizeof(input_csc_matrix)/sizeof(struct input_csc_matrix); struct dc_context *ctx = xfm->ctx; const uint32_t *regval = NULL; bool use_set_a; uint32_t value; int i; for (i = 0; i < arr_size; i++) if (input_csc_matrix[i].color_space == color_space) { regval = input_csc_matrix[i].regval; break; } if (regval == NULL) { BREAK_TO_DEBUGGER(); return; } /* * 1 == set A, the logic is 'if currently we're not using set A, * then use set A, otherwise use set B' */ value = dm_read_reg(ctx, mmCOL_MAN_INPUT_CSC_CONTROL); use_set_a = get_reg_field_value( value, COL_MAN_INPUT_CSC_CONTROL, INPUT_CSC_MODE) != 1; if (use_set_a) { /* fixed S2.13 format */ value = 0; set_reg_field_value( value, regval[0], INPUT_CSC_C11_C12_A, INPUT_CSC_C11_A); set_reg_field_value( value, regval[1], INPUT_CSC_C11_C12_A, INPUT_CSC_C12_A); dm_write_reg(ctx, mmINPUT_CSC_C11_C12_A, value); value = 0; set_reg_field_value( value, regval[2], INPUT_CSC_C13_C14_A, INPUT_CSC_C13_A); set_reg_field_value( value, regval[3], INPUT_CSC_C13_C14_A, INPUT_CSC_C14_A); dm_write_reg(ctx, mmINPUT_CSC_C13_C14_A, value); value = 0; set_reg_field_value( value, regval[4], INPUT_CSC_C21_C22_A, INPUT_CSC_C21_A); set_reg_field_value( value, regval[5], INPUT_CSC_C21_C22_A, INPUT_CSC_C22_A); dm_write_reg(ctx, mmINPUT_CSC_C21_C22_A, value); value = 0; set_reg_field_value( value, regval[6], INPUT_CSC_C23_C24_A, INPUT_CSC_C23_A); set_reg_field_value( value, regval[7], INPUT_CSC_C23_C24_A, INPUT_CSC_C24_A); dm_write_reg(ctx, mmINPUT_CSC_C23_C24_A, value); value = 0; set_reg_field_value( value, regval[8], INPUT_CSC_C31_C32_A, INPUT_CSC_C31_A); set_reg_field_value( value, regval[9], INPUT_CSC_C31_C32_A, INPUT_CSC_C32_A); dm_write_reg(ctx, mmINPUT_CSC_C31_C32_A, value); value = 0; set_reg_field_value( value, regval[10], INPUT_CSC_C33_C34_A, INPUT_CSC_C33_A); set_reg_field_value( value, regval[11], INPUT_CSC_C33_C34_A, INPUT_CSC_C34_A); dm_write_reg(ctx, mmINPUT_CSC_C33_C34_A, value); } else { /* fixed S2.13 format */ value = 0; set_reg_field_value( value, regval[0], INPUT_CSC_C11_C12_B, INPUT_CSC_C11_B); set_reg_field_value( value, regval[1], INPUT_CSC_C11_C12_B, INPUT_CSC_C12_B); dm_write_reg(ctx, mmINPUT_CSC_C11_C12_B, value); value = 0; set_reg_field_value( value, regval[2], INPUT_CSC_C13_C14_B, INPUT_CSC_C13_B); set_reg_field_value( value, regval[3], INPUT_CSC_C13_C14_B, INPUT_CSC_C14_B); dm_write_reg(ctx, mmINPUT_CSC_C13_C14_B, value); value = 0; set_reg_field_value( value, regval[4], INPUT_CSC_C21_C22_B, INPUT_CSC_C21_B); set_reg_field_value( value, regval[5], INPUT_CSC_C21_C22_B, INPUT_CSC_C22_B); dm_write_reg(ctx, mmINPUT_CSC_C21_C22_B, value); value = 0; set_reg_field_value( value, regval[6], INPUT_CSC_C23_C24_B, INPUT_CSC_C23_B); set_reg_field_value( value, regval[7], INPUT_CSC_C23_C24_B, INPUT_CSC_C24_B); dm_write_reg(ctx, mmINPUT_CSC_C23_C24_B, value); value = 0; set_reg_field_value( value, regval[8], INPUT_CSC_C31_C32_B, INPUT_CSC_C31_B); set_reg_field_value( value, regval[9], INPUT_CSC_C31_C32_B, INPUT_CSC_C32_B); dm_write_reg(ctx, mmINPUT_CSC_C31_C32_B, value); value = 0; set_reg_field_value( value, regval[10], INPUT_CSC_C33_C34_B, INPUT_CSC_C33_B); set_reg_field_value( value, regval[11], INPUT_CSC_C33_C34_B, INPUT_CSC_C34_B); dm_write_reg(ctx, mmINPUT_CSC_C33_C34_B, value); } /* KK: leave INPUT_CSC_CONVERSION_MODE at default */ value = 0; /* * select 8.4 input type instead of default 12.0. From the discussion * with HW team, this format depends on the UNP surface format, so for * 8-bit we should select 8.4 (4 bits truncated). For 10 it should be * 10.2. For Carrizo we only support 8-bit surfaces on underlay pipe * so we can always keep this at 8.4 (input_type=2). If the later asics * start supporting 10+ bits, we will have a problem: surface * programming including UNP_GRPH* is being done in DalISR after this, * so either we pass surface format to here, or move this logic to ISR */ set_reg_field_value( value, 2, COL_MAN_INPUT_CSC_CONTROL, INPUT_CSC_INPUT_TYPE); set_reg_field_value( value, use_set_a ? 1 : 2, COL_MAN_INPUT_CSC_CONTROL, INPUT_CSC_MODE); dm_write_reg(ctx, mmCOL_MAN_INPUT_CSC_CONTROL, value); } void dce110_opp_v_set_csc_default( struct transform *xfm, const struct default_adjustment *default_adjust) { struct dce_transform *xfm_dce = TO_DCE_TRANSFORM(xfm); enum csc_color_mode config = CSC_COLOR_MODE_GRAPHICS_PREDEFINED; if (default_adjust->force_hw_default == false) { const struct out_csc_color_matrix *elm; /* currently parameter not in use */ enum grph_color_adjust_option option; uint32_t i; /* * HW default false we program locally defined matrix * HW default true we use predefined hw matrix and we * do not need to program matrix * OEM wants the HW default via runtime parameter. */ option = GRPH_COLOR_MATRIX_SW; for (i = 0; i < ARRAY_SIZE(global_color_matrix); ++i) { elm = &global_color_matrix[i]; if (elm->color_space != default_adjust->out_color_space) continue; /* program the matrix with default values from this * file */ program_color_matrix_v(xfm_dce, elm, option); config = CSC_COLOR_MODE_GRAPHICS_OUTPUT_CSC; break; } } program_input_csc(xfm, default_adjust->in_color_space); /* configure the what we programmed : * 1. Default values from this file * 2. Use hardware default from ROM_A and we do not need to program * matrix */ configure_graphics_mode_v(xfm_dce, config, default_adjust->csc_adjust_type, default_adjust->out_color_space); set_Denormalization(xfm, default_adjust->color_depth); } void dce110_opp_v_set_csc_adjustment( struct transform *xfm, const struct out_csc_color_matrix *tbl_entry) { struct dce_transform *xfm_dce = TO_DCE_TRANSFORM(xfm); enum csc_color_mode config = CSC_COLOR_MODE_GRAPHICS_OUTPUT_CSC; program_color_matrix_v( xfm_dce, tbl_entry, GRPH_COLOR_MATRIX_SW); /* We did everything ,now program DxOUTPUT_CSC_CONTROL */ configure_graphics_mode_v(xfm_dce, config, GRAPHICS_CSC_ADJUST_TYPE_SW, tbl_entry->color_space); /*TODO: Check if denormalization is needed*/ /*set_Denormalization(opp, adjust->color_depth);*/ }
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